逕溽黄邏蟄撰シ医え繧、繝ォ繧ケ繝サ繝輔ぃ繝シ繧クシ碁オ邏シ悟セョ逕溽黄シ悟虚繝サ讀咲黄邏ー閭槭↑縺ゥシ峨′譛峨☆繧狗函迚ゥ讖溯ス繧貞キ・蟄ヲ逧縺ォ豢サ逕ィ縺励※シ檎黄雉ェ繝サ繧ィ繝阪Ν繧ョ繝シ逕溽肇繧迺ー蠅菫晏ィ繝サ蜑オ騾縺ョ縺溘a縺ョ繧キ繧ケ繝繝讒狗ッ峨↓蟇荳弱☆繧狗函迚ゥ蟾・蟄ヲ遐皮ゥカ縺ョ譛蜑咲キ壹r蟄ヲ縺カ縲
Most advanced research status of bioengineering is to be learned, where bio-functions derived from biological elements such as viruses/phages, enzymes, microbes, plant/animal cells are applied to the construction of innovative systems for producing materials and/or energy, and contributing environmental technology.
逕溽黄邏蟄撰シ医え繧、繝ォ繧ケ繝サ繝輔ぃ繝シ繧ク縲驟オ邏縲∝セョ逕溽黄縲∝虚繝サ讀咲黄邏ー閭槭↑縺ゥシ峨′譛峨☆繧狗函迚ゥ讖溯ス繧貞キ・蟄ヲ逧縺ォ豢サ逕ィ縺励※縲∫黄雉ェ繝サ繧ィ繝阪Ν繧ョ繝シ逕溽肇繧迺ー蠅菫晏ィ繝サ蜑オ騾縺ョ縺溘a縺ョ繧キ繧ケ繝繝讒狗ッ峨↓蟇荳弱☆繧狗函迚ゥ蟾・蟄ヲ遐皮ゥカ縺ョ譛蜑咲キ壹r蟄ヲ縺カ縲
Most advanced research status of bioengineering is to be learned, where bio-functions derived from biological elements such as viruses/phages, enzymes, microbes, plant/animal cells are applied to the construction of innovative systems for producing materials and/or energy, and contributing environmental technology.
1. Mechanism and application of biocatalysis
1-1 Kinetics of biocatalytic reactions
1-2 Mechanism of biocatalytic reactions
1-3 Production of useful materials with biocatalysts
1-4 Pront of industrial production with biocatalysts
2. Molecular bioengineering of extremozymes and related proteins
2-1 Methodology for effcient foreign gene expression
2-2 Extremophiles and extremozymes
2-3 Protein engineering of extremozymes and related proteins
2-4 Directed evolution of extremozymes and related proteins
3. Biotransformation for organic synthesis
3-1 Kinetic resolution using hydrolytic enzymes (I)
3-2 Kinetic resolution using hydrolytic enzymes (II)
3-3 Reduction and oxidation
3-4 Future directions in biotransformation
蜃コ蟶ュ縲√Ξ繝昴シ繝
Attendance縲and report